\hypertarget{uniform__meshes_8cpp}{
\subsection{Examples/01StructMesh/uniform\_\-meshes.cpp File Reference}
\label{uniform__meshes_8cpp}\index{Examples/01StructMesh/uniform\_\-meshes.cpp@{Examples/01StructMesh/uniform\_\-meshes.cpp}}
}


Examples of use of {\ttfamily StructuredMesh$<$$>$} class.  




\subsubsection{Detailed Description}
\begin{DoxyAuthor}{Author}
Luis M. de la Cruz Salas \mbox{[} Sat Jan 19 18:16:37 GMT 2010 \mbox{]}
\end{DoxyAuthor}
This program presents examples for using the StructuredMesh$<$$>$ class, which is intended to handle structured meshes in Cartesian coordinates. In these examples the class is specialized with the Uniform$<$$>$ adaptor to create uniform meshes. \begin{DoxyParagraph}{Compiling and running}
Modify the variables BASE and BLITZ in the file {\ttfamily tuna-\/cfd-\/rules.in} according to your installation and then type the next commands: \begin{DoxyVerb}
    % make  
    % ./uniform_meshes  \end{DoxyVerb}
 The file {\ttfamily input} contains: 1 2 3 4 5 6 which are the lenghts in the axes {\itshape x\/}, {\itshape y\/}, and {\itshape z\/} respectively, and the number of nodes in the same order. 
\end{DoxyParagraph}


Definition in file \hyperlink{uniform__meshes_8cpp_source}{uniform\_\-meshes.cpp}.

